Spontaneous platelet aggregation in type IIB Tampa von Willebrand disease is inhibited by the 52/48-kDa fragment of normal von Willebrand factor, which contains the GPIb binding domain

The association of Type IIB von Willebrand disease (vWD) with chronic persistent thrombocytopenia and spontaneous platelet aggregation has recently been recognized. It has been shown that IIB von Willebrand factor (vWF) can initiate platelet aggregation by binding to the platelet glycoprotein (GP) lb receptor and inducing exposure of the GpIIb/IIIa fibrinogen receptor. In this study we demonstrate the increased binding of Type IIB Tampa vWF with normal platelets when compared with nonthrombocytopenic Type IIB vWF. Studies further demonstrate that spontaneous platelet aggregation initiated by IIB Tampa vWF can be blocked by a 52/48-kDa fragment of normal vWF, which contains the binding domain.     

Platelet--von Willebrand factor interactions in type IIB von Willebrand's disease

Type IIB von Willebrand's disease (vWD) is a distinct form of this disorder in which the largest multimers of the von Willebrand factor (vWF) are lacking in plasma but present in platelets. When the vasopressin analogue, 1-deamino-8-D-arginine vasopressin (DDAVP), is given to patients with type IIB vWD, an abnormal vWF is released to plasma. This vWF causes thrombocytopenia in vivo and platelet aggregation in vitro. Aggregation occurs in the plasma milieu and thus at physiological fibrinogen concentration. In this study we demonstrate that IIB post-DDAVP vWF aggregated only metabolically active platelets. The platelet aggregation was completely inhibited by EDTA and PGE1, and either inhibited or greatly weakened by ASA, demonstrating the role of divalent cations and thromboxane A2 formation. In spite of inhibiting platelet aggregation, EDTA, PGE1 and ASA did not prevent platelet binding of IIB post-DDAVP vWF. An antiserum against GP Ib made normal platelets less responsive to the IIB vWF although neither platelet aggregation nor vWF binding were completely prevented. The aggregation was fibrinogen-dependent and platelets from patients with Glanzmann's thrombasthenia were unresponsive. The studies provide evidence that IIB post-DDAVP vWF is bound to unstimulated platelets and that the interaction between vWF and platelets in type IIB vWD is different from ristocetin-induced as well as thrombin- and epinephrine-induced binding to platelets of normal vWF.     

Platelet – von Willebrand factor interactions in Type IIB von Willebrand's disease

Type IIB von Willebrand's disease (vWD) is a distinct form of this disorder in which the largest multimers of the von Willebrand factor (vWF) are lacking in plasma but present in platelets. When the vasopressin analogue, l-deamino-8-D-arginine vasopressin (DDAVP), is given to patients with type IIB vWD, an abnormal vWF is released to plasma. This vWF causes thrombocytopenia in vivo and platelet aggregation in vitro. Aggregation occurs in the plasma milieu and thus at physiological fibrinogen concentration. In this study we demonstrate that IIB post-DDAVP vWF aggregated only metabolically active platelets. The platelet aggregation was completely inhibited by EDTA and PGE₁, and either inhibited or greatly weakened by ASA, demonstrating the role of divalent cations and thromboxane A₂ formation. In spite of inhibiting platelet aggregation, EDTA, PGE₁ and ASA did not prevent platelet binding of IIB post-DDAVP vWF. An antiserum against GP Ib made normal platelets less responsive to the IIB vWF although neither platelet aggregation nor vWF binding were completely prevented. The aggregation was fibrinogen-dependent and platelets from patients with Glanzmann's thrombasthenia were unresponsive. The studies provide evidence that IIB post-DDAVP vWF is bound to unstimulated platelets and that the interaction between vWF and platelets in type IIB vWD is different from ristocetin-induced as well as thrombin- and epinephrine-induced binding to platelets of normal vWF.     

Spontaneous platelet aggregation during pregnancy in a patient with von Willebrand disease type IIB can be blocked by monoclonal antibodies to both platelet glycoproteins Ib and IIb/IIIa

Spontaneous platelet aggregation appeared in a patient with von Willebrand disease type IIB during the 37th week of pregnancy. This phenomenon was not associated with symptoms of thrombosis and the patient delivered by caesarean section with no complications. Her platelet-poor plasma (PPP) aggregated normal platelet-rich plasma (PRP) and washed platelets. Aggregation was inhibited by monoclonal antibodies with known specificity for the platelet receptors of von Willebrand factor (vWF), i.e. the glycoprotein Ib (GPIb) and the GPIIb/IIIa complex. A monoclonal antibody, which selectively inhibits the binding of vWF to the GPIIb/IIIa complex, did not block aggregation, suggesting that spontaneous aggregation is not dependent on the binding to GPIIb/IIIa of vWF from patient plasma. Aggregation induced by patient plasma could also be blocked either by two monoclonal antibodies raised against vWF or by a fragment derived from trypsin digestion of normal vWF which blocks the ristocetin-induced binding of normal vWF to platelets. These findings indicate that the spontaneous platelet aggregation in this patient results from the binding of her vWF to GPIb but is independent from the binding of her vWF to GPIIb/IIIa.     

Interaction of purified type IIB von Willebrand factor with the platelet membrane glycoprotein Ib induces fibrinogen binding to the glycoprotein IIb/IIIa complex and initiates aggregation.

Von Willebrand factor (vWF) was purified from the plasma of a patient with type IIB von Willebrand disease (vWF from such a patient, IIB vWF) who had a normal platelet count and showed no evidence of spontaneous platelet aggregation. Large multimers of IIB vWF were absent from purified preparations and from plasma. Ristocetin-induced platelet aggregation was enhanced by purified IIB vWF. The aggregation of washed normal platelets mixed with IIB vWF (0.4 microgram/ml) required lower amounts of ristocetin than the aggregation of normal platelets mixed with the same concentrations of normal vWF. Moreover, purified IIB vWF alone induced aggregation of platelet-rich plasma at concentrations as low as 10 micrograms of IIB vWF/ml in the absence of any other agonist. Aggregation was blocked by a monoclonal antibody against the platelet membrane glycoprotein, GPIb, as well as by an anti-GPIIb/IIIa antibody. Washed platelet suspensions were promptly aggregated by IIB vWF only when fibrinogen and CaCl2 were added to the mixture. Purified IIB vWF induces the binding of fibrinogen to platelets. Such binding was blocked by the anti-GPIb monoclonal antibody as well as by the anti-GPIIb/IIIa monoclonal antibody that inhibited aggregation. A second anti-GPIIb/IIIa antibody, which has the property of blocking vWF but not fibrinogen binding to platelets, blocked neither aggregation nor fibrinogen binding induced by IIB vWF. These studies demonstrate that platelet aggregation is triggered by the initial interaction of IIB vWF with GPIb which is followed by exposure of fibrinogen binding sites on GPIIb/IIIa. Fibrinogen binds to these sites and acts as a necessary cofactor for the aggregation response.     

Discrepancy between IIA phenotype and IIB genotype in a patient with a variant of von Willebrand disease

Type IIA and IIB von Willebrand disease (vWD) result from qualitative abnormalities of von Willebrand factor (vWF) characterized by an absence in plasma of high molecular weight vWF multimers and an abnormal reactivity of vWF towards platelet glycoprotein (GP) Ib, which is decreased in type IIA and increased in type IIB. In this report, we describe the case of a patient having a IIA vWD phenotype associated with an intermittent thrombocytopenia atypical in this subtype but observed in type IIB vWD. The patient plasma vWF showed an absence of high molecular weight and intermediate multimers and had a decreased binding capacity to GPIb. The affinity of botrocetin was normal for plasma vWF from the propositus. Analysis of the propositus vWF gene showed the presence of a substitution Val 551 to Phe of the mature vWF subunit. This mutation is localized within a 509-695 disulphide loop of the vWF that plays an important role in the binding to GPIb and is where most of the molecular defects described so far were associated with type-IIB vWD. We have reproduced the Val 551 Phe substitution onto the vWF cDNA, expressed it in COS-7 cells, and performed structural and functional analysis of the mutant recombinant protein (rvWFPhe 551). The rvWFPhe 551 had a normal multimeric structure and showed the capacity to spontaneously interact with GPIb. Botrocetin had a decreased affinity for rvWFPhe 551. In conclusion, the Val 551 Phe mutation modifies the affinity of vWF for platelet GPIb, as does a type IIB mutation, and may be responsible for the thrombocytopenia of the patient and the clearance of the high molecular weight and intermediate- sized multimers of vWF from the plasma. The study of the rvWFPhe 551 has confirmed the discrepancy between the IIA phenotype and the IIB genotype of the patient.     

A probable double heterozygous type II von Willebrand's disease with increased ristocetin induced platelet aggregation.

We have identified a patient with von Willebrand's disease (vWD) resembling type IIB vWD, with increased ristocetin induced platelet aggregation (RIPA), the absence of the large multimers of von Willebrand factor (vWF) in plasma, and the presence of the large multimers in platelets in whom a family study indicated a probable double heterozygous inheritance pattern. The propositus was a 12-year-old boy with frequent epistaxis and bruising. Abnormal hemostatic findings included a prolonged bleeding time (BT), decreased levels of factor VIII coagulant activity (VIIIC), von Willebrand factor antigen (vWF:Ag), ristocetin cofactor (RCof), and an increased RIPA. In the presence of ristocetin, binding of the patient's plasma vWF to normal platelets was increased but binding of normal vWF to his platelets was normal. SDS-agarose gel (1.5%) electrophoresis revealed that plasma vWF lacked the large multimers, and 3.0% gel electrophoresis revealed that the multimers had a 5-band pattern similar to normal. The above findings were consistent with type IIB vWD, but 1-deamino[8-D-arginine]-vasopressin (DDAVP) infusion resulted in a shortened BT and the transient appearance of large multimers without a decrease in the platelet count. Family studies revealed that his mother has mild bleeding symptoms, decreased VIIIC, vWF:Ag, and RCof levels and normal to slightly reduced RIPA with a multimer pattern consistent with type I vWD. In contrast, the father, sister, and paternal grandfather were asymptomatic, with a slightly decreased VIIIC level but a normal BT and vWF:Ag and RCof levels. Their RIPA and vWF binding to normal platelets were increased, but unlike the propositus their plasma contained large multimers. We concluded that the propositus is a type IIB-like variant differing from previously reported IIB variants in two ways: 1) his response to DDAVP and 2) a possible double heterozygous mode of inheritance rather than the usual dominant route.     

In vivo interaction of von Willebrand factor with platelets following cryoprecipitate transfusion in platelet-type von Willebrand's disease

Previous studies performed in vitro have indicated that platelets from patients with platelet-type von Willebrand's disease (vWD) have receptors for von Willebrand factor (vWF) already exposed on their surfaces and that the addition of purified vWF or cryoprecipitate to patient platelet-rich plasma under stirring conditions is capable of inducing platelet aggregation and secretion. The present work reports the results of the transfusion of cryoprecipitate in a patient with platelet-type vWD. It is shown that, while factor VIII-related antigen and ristocetin cofactor activities maintain elevated levels for up to 12 hr following transfusion, the highest molecular weight vWF multimers decline rapidly. The platelet count also declines, followed in turn by a rise in the plasma level of platelet factor 4. Shortening of the bleeding time occurs only very transiently. The results of this study provide direct evidence that, in patients with platelet-type vWD, an abnormal interaction of their platelets with plasma vWF occurs in vivo, resulting in the absence of high molecular weight vWF multimers, low platelet counts, and impaired hemostasis that are characteristic of this disease.     

Type IIB von Willebrand's disease associated with a complex thrombocytopenic thrombocytopathy

A familial bleeding disorder characterized by an association of Type IIB von Willebrand's disease (vWD) with a complex thrombocytopenic thrombocytopathy is described in two patients from the same generation. Findings typical of type IIB vWD included enhanced ristocetin-induced binding of patient von Willebrand factor (vWF) to platelets of patients and normal individuals in association with the absence of larger multimers from plasma. Abnormalities in platelet function included deficient platelet aggregation to ADP, collagen, epinephrine, and arachidonic acid; and defective release of 14C-serotonin, vWF, and platelet factor 4 (PF4) in response to thrombin, collagen, or ADP. Platelet factor 4 and platelet vWF were decreased when measured per mg of total platelet protein. In addition, the binding of normal vWF to patient platelets stimulated with thrombin was decreased. Platelet size was increased with a very heterogeneous distribution width. Electron microscopic evaluation showed giant platelets with dense and alpha bodies present. The platelet count was borderline or slightly decreased in the resting state and declined to frankly thrombocytopenic levels at the time of acute bleeding episodes; this state was associated with the presence of platelet aggregates in blood smears.     

Effect of a factor VIII concentrate on type IIB von Willebrand's disease-associated thrombocytopenia presenting during pregnancy in identical twin mothers

Marked thrombocytopenia developed during pregnancy in both identical twins mothers who had systemic lupus erythematosus (SLE) and also type IIB von Willebrand's disease (vWD). The proband's platelet count decreased in the third trimester of pregnancy. Large-dose gamma-globulin and prednisolone treatments were performed because of the suspicion of immune thrombocytopenic reaction associated with SLE. These treatments were not effective. Her platelet count returned to the normal range immediately after delivery. Postpartum examinations revealed the decreased ristocetin cofactor activity and the deficiency of large von Willebrand factor (vWF) multimers in preserved plasma samples from the third trimester. These abnormal findings improved after delivery. Investigation of family members revealed that the proband had inherited type IIB vWD from her mother. The other twin, who was also under treatment for SLE, became pregnant about 1 year after delivery in the proband and followed almost the same course as that observed in the proband. As bleeding tendency was observed a few days before delivery, a factor VIII concentrate (Haemate P) was administered to compete with her variant vWF. This concentrate could prevent the further decrease in her platelet count, thereby correcting the hemorrhagic tendency. It seems evident that factor VII concentrate would be effective in treating thrombocytopenia associated with type IIB vWD.     

Molecular study of von Willebrand disease: identification of potential mutations in patients with type IIA and type IIB.

The defective von Willebrand Factor (vWF) in type IIA von Willebrand disease (vWD) has decreased binding affinity for platelet membrane glycoprotein Ib (GPIb) while in type IIB vWD, the abnormal vWF has increased affinity for this receptor. Segments of exon 28 of the vWF gene were amplified by the polymerase chain reaction and sequenced in two patients with type IIA and two patients with type IIB vWD. One type IIB patient showed an arginine to tryptophan substitution at amino acid residue 543 in the mature vWF and the other patient had a valine to methionine change at residue 553. Including these two new cases, substitutions at residues 543 and 553 now account for more than half of the documented mutations in patients with type IIB vWD. One patient with type IIA vWD showed an isoleucine to threonine change at amino acid 865. This substitution has been reported in another patient with type IIA vWD. The other patient showed a novel proline to serine change at residue 885. The C to T nucleotide transition which causes the amino acid change was not found in over 100 normal chromosomes tested by allele specific oligonucleotide hybridization and was linked to type IIA vWD in the family. This potential mutation is more carboxyterminal in the vWF subunit than other reported mutations in type IIA vWD. It is apparent that mutations associated with type IIA vWD are not as tightly grouped as defects in type IIB vWD, supporting the evidence that the type IIA vWD phenotype is generated by diverse mechanisms.     

Platelet activation and alpha granule secretion in type IIB von Willebrand''s disease

Type IIB von Willebrand disease is characterized by enhanced ristocetin-induced platelet aggregation, spontaneous platelet aggregation, thrombocytopenia and the absence of the largest plasma von Willebrand factor (vWf) multimers. The absence of the largest plasma vWf multimers is related to their enhanced binding to platelets. The abnormal affinity of the IIB von Willebrand factor to platelets results in thrombocytopenia, but the mechanism is not known. We have studied the platelets from three patients with type IIB von Willebrand disease and have found evidence of platelet activation and alpha granule secretion as defined by increased amounts of von Willebrand factor, fibrinogen and the alpha granule protein PADGEM/GMP-140 on the surface of these platelets. The degree of thrombocytopenia appears to be directly related to the number of platelets with fibrinogen bound to the surface. PADGEM/GMP-140, an alpha granule membrane protein, fuses with the platelet plasma membrane after activation and is a site on platelets which binds to neutrophils or monocytes. This alpha granule protein may play an additional role in platelet clearance and thrombocytopenia in type IIB von Willebrand disease. This may, in part, explain the absence of thromboembolic phenomena despite the presence of activated platelets in patients with type IIB von Willebrand disease.     

A new von Willebrand variant (type I, New York): increased ristocetin-induced platelet aggregation and plasma von Willebrand factor containing the full range of multimers

We report three members of a family who had reduced levels of plasma von Willebrand factor (vWF) and increased ristocetin-induced platelet aggregation (RIPA) (aggregation of platelet-rich plasma with ristocetin at a concentration of 0.45 mg/mL), as previously reported in type IIB and pseudo-von Willebrand's disease (vWD). However, in contrast to the latter two disorders in which the larger vWF multimers are absent in plasma, the entire range of vWF multimers was observed in the patients' plasma after sodium dodecyl sulfate-agarose gel electrophoresis, and all vWF multimers (including the largest) were present in the same proportion as in normal plasma and type I vWD. Thus, despite increased RIPA, the levels and multimeric pattern of vWF in this family's plasma were indistinguishable from those in type I vWD in which RIPA is usually decreased. Addition of ristocetin to the patients' platelet- rich plasma resulted in the removal of vWF (and, more selectively, of the large multimers) at lower concentrations of ristocetin than normal, as in type IIB and pseudo-vWD. The defect in the patients was localized to their vWF, which had an enhanced capacity for aggregating washed normal platelets in the presence of low concentrations of ristocetin and for aggregating pseudo-vWD platelets (in the absence of ristocetin). Both glycoproteins (GP) Ib and IIb-IIIa were involved in the enhanced aggregation response. RIPA (at low ristocetin concentrations) in the patients' platelet-rich plasma was abolished by a monoclonal antibody (AP1) to GPIb and was markedly reduced by monoclonal antibodies (10E5 and LJP9) that block adenosine diphosphate and thrombin-induced binding of vWF and fibrinogen to GPIIb-IIIa but was unaffected by an antibody (LJP5) that only blocks vWF binding. Partial inhibition of the initial aggregation slope (and complete inhibition of second phase aggregation) was achieved with creatine phosphate/creatine phosphokinase. EDTA blocked second-phase aggregation but was without effect on the initial slope. The findings in this family combine some features of both type I vWD (normal pattern of vWF multimers in plasma) and type IIB vWD (increased RIPA) and further demonstrate the increasing complexity of the structure-function relationships in vWD.     

Type IIB von Willebrand's disease: gene mutations and clinical presentation in nine families from Denmark, Germany and Sweden

Summary Type IIB of von Willebrand's disease (vWD) is a variant in which the structurally abnormal von Willebrand factor (vWF) shows an increased affinity for the platelet vWF receptor, glycoprotein Ib (GPIb). This may sometimes give rise to platelet aggregation and thrombocytopenia in vivo. In 20 patients from nine unrelated families with type IIB vWD from Denmark, Germany and Sweden we studied the molecular defect by amplification and direct sequencing of parts of exon 28 which encode for the vWF domain that interacts with platelet GPIb. Three different point mutations were identified one of which has not previously been reported. Fifteen patients from five families were heterozygous for the Arg⁵⁴³Trp substitution. The mutation had occurred independently in all five families and in two of them represented a de novo mutation. In one of these families the father, though asymptomatic and with normal laboratory test results, carried the mutation in heterozygous form. In three families, four affected members were found to be heterozygous for the Arg⁵⁴³°Cys substitution. The mutations were of different origin at least in two of the families. The third substitution, Val⁵⁵⁴Leu, which has not previously been described, was found in one patient and was due to a de novo mutation. In most of the patients spontaneous thrombocytopenia had been recorded on at least one occasion. Five of the patients with the Arg⁵⁴³Trp substitution and the one with the Val⁵⁵⁵Leu substitution had all had bleeding associated with thrombocytopenia in the neonatal period of early infancy.     

Desmopressin and type II B von Willebrand disease

Summary. Type II B von Willebrand disease (vWD) is a rare subtype of vWD characterized by the presence of an abnormal von Willebrand factor (vWF) with enhanced affinity for the platelet membrane receptor glycoprotein Ib. The phenotypic hallmarks of the disease are represented by heightened ristocetin-induced platelet aggregation, occurring at very low ristocetin concentration, and the lack of high-molecular-weight vWF multimers in plasma. When infused with desmopressin, a variable degree of thrombocytopenia usually occurs in these patients, resulting from in vivo platelet aggregation caused by the release of abnormal vWF multimers from endogenous stores. We have reviewed the available literature data concerning the biological and clinical effects of desmopressin in the few cases so far reported. Despite the fear of thrombotic or haemorrhagic events, no significant side-effects have been reported also in the cases (70%) with severe thrombocytopenia. Moreover, the few clinical reports with the use of desmopressin in type II B patients showed a favourable effect in the prevention of bleeding during surgery or dental extraction. Thus, it appears that desmopressin could be safely used in selected clinical situations in patients with type II B vWD.     

von Willebrand factor synthesized by endothelial cells from a patient with type IIB von Willebrand disease supports platelet adhesion normally but has an increased affinity for platelets.

Endothelial cells were isolated from the umbilical vein of a patient with subtype IIB von Willebrand disease, and the biosynthesis and function of von Willebrand factor (vWF) synthesized by these cells were compared with those of vWF synthesized by endothelial cells from normal individuals. The patient's endothelial cells synthesized, stored, and secreted vWF indistinguishably from normal endothelial cells: it was synthesized as a prepolypeptide of Mr 270,000 and had a mature form of Mr 220,000; the full spectrum of multimers was found both inside the cells and in the culture medium; it was stored normally, in the Weibel-Palade bodies; and similar amounts of vWF were secreted into the medium and deposited in the extracellular matrix. In a perfusion set-up, the extracellular matrix from IIB cells supported platelet adhesion similarly to the matrix from normal cells. vWF secreted constitutively by IIB cells into the culture medium bound to platelets at concentrations of ristocetin lower than those necessary for vWF from normal cells. vWF stored in the Weibel-Palade bodies of type IIB cells was released upon stimulation with phorbol ester and bound almost completely to platelets even in the absence of ristocetin. Moreover, spontaneous platelet aggregation was induced by vWF synthesized by type IIB cells. These data support the hypothesis that the absence of highly multimeric forms of vWF in plasma of type IIB von Willebrand disease patients is due to specific removal of these multimers by platelets.     

Duplication of a methionine within the glycoprotein Ib binding domain of von Willebrand factor detected by denaturing gradient gel electrophoresis in a patient with type IIB von Willebrand disease

von Willebrand disease (vWD) type IIB is characterized by an increased reactivity of von Willebrand factor (vWF) with platelets and a lack of large multimers. Exon 28 of the vWF gene encodes for functional domains involved in the binding of vWF to GPIb, and it is presumed that the defects in type IIB vWD lie within or adjacent to these functional domains. We screened overlapping DNA fragments generated by the polymerase chain reaction (PCR) that spanned the 1,379 bp of exon 28 of a type IIB vWD patient using denaturing gradient gel electrophoresis (DGGE). To increase the power of DGGE to detect base changes, we used the PCR to attach a G + C-rich sequence. In the type IIB patient, a DNA fragment at the 5' end of exon 28 demonstrated homoduplex and heteroduplex complexes after DGGE, a pattern characteristic of heterozygous genes after melting and reannealing during the PCR. Sequencing of the cloned insert from the patient showed a duplication of an ATG in one gene coding for a Met at amino acids 540 to 541 in the mature vWF subunit. This duplication leads to three consecutive methionines in the patient's sequence. The duplicated Met resides within a disulfide bond loop proposed to be important in the function of the GPIb binding domain of vWF. The patient's nephew, who also has type IIB vWD, showed the same duplicated codon, linking the defect to the abnormal phenotype in this family. These nucleotide changes were not found in 100 chromosomes analyzed either by DGGE or hybridization with an allele specific oligonucleotide containing the duplicated ATG codon. In addition, the same oligonucleotide hybridized only to DNA from type IIB vWD individuals and not to DNA from normal members of the family. Therefore, we conclude that this duplicated Met modifies the GPIb binding domain of vWF and causes type IIB vWD in this family.     

Type IIB von Willebrand''s disease with probable autosomal recessive inheritance and presenting as thrombocytopenia in infancy

von Willebrand's disease (vWD) is a congenital bleeding disorder that exists in two main forms. In the classic form, type I, the concentration of the von Willebrand factor (vWF) in plasma is decreased. In type II vWD, the vWF is structurally altered. Type II can be further divided into at least six subtypes (A, B, C, D, E and F). In type IIB the vWF, in contrast to other variants of vWD, shows an increased affinity for platelets. IIB vWD is generally believed to be inherited in an autosomal dominant manner. We describe two families with three affected children in whom an autosomal recessive inheritance is more likely. Thrombocytopenia, constant or variable, was present from early infancy in all three cases. Type IIB vWD should thus be included in the differential diagnosis of congenital thrombocytopenia.     

Type 2B Hiroshima: a variant of von Willebrand disease characterized by chronic thrombocytopenia and the presence of all von Willebrand factor multimers in plasma.

Type 2B von Willebrand disease (vWD) is a von Willebrand factor (vWF) subtype with increased binding affinity for platelet glycoprotein (GP) Ib and is characterized by increased ristocetin-induced platelet agglutination at low concentrations of ristocetin. Usually there are no high molecular weight multimers of vWF, and platelet counts are within normal ranges in patients with type 2B vWD. We identified a variant of type 2B vWD showing the full range of vWF multimers in plasma accompanied by thrombocytopenia, which seemed to be caused by circulating platelet aggregation. Since the A1 domain and surrounding region of vWF alleles, in which mutation sites are known to be clustered in type 2B vWD, appeared normal on nucleotide sequencing, this increased binding affinity of vWF for GPIb may be due to a novel mechanism differing from that which usually underlies type 2B vWD.